Transcriptomic-Driven Drug Repurposing Reveals SP600125 as a Promising Drug Candidate for the Treatment of Glial-Mesenchymal Transition in Glioblastoma
Kirill V. Odarenko, Marina A. Zenkova, Andrey V. Markov

TL;DR
This study identifies SP600125 as a potential treatment for glioblastoma by targeting the glial-mesenchymal transition using transcriptomic data and drug repurposing.
Contribution
A novel 31-gene GMT signature and the identification of SP600125 as a promising GMT inhibitor through transcriptomic-driven drug repurposing.
Findings
SP600125 effectively inhibits TGF-β1- and chemical hypoxia-induced GMT in U87 GBM cells.
Connectivity mapping is a powerful tool for discovering GMT-targeting therapies for GBM.
SP600125 reduces mesenchymal marker expression and vasculogenic mimicry in GBM cells.
Abstract
Glioblastoma multiforme (GBM) is an aggressive brain cancer characterized by highly invasive growth driven by glial-mesenchymal transition (GMT). Given the urgent need for effective therapies targeting this process, we aimed to discover potential GMT inhibitors using transcriptomic-based repurposing applied to both approved and experimental drugs. Deep bioinformatic analysis of transcriptomic data from GBM patient tumors and GBM cell lines with mesenchymal phenotype using gene set variation analysis (GSVA), weighted gene co-expression network analysis (WGCNA), reconstruction of GMT-related gene association networks, gene set enrichment analysis (GSEA), and the search for correlation with transcriptomic profiles of known GMT markers, revealed a novel 31-gene GMT signature applicable as relevant input data for the connectivity map-based drug repurposing study. Using this gene signature, a…
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Taxonomy
TopicsGlioma Diagnosis and Treatment · Ferroptosis and cancer prognosis · RNA modifications and cancer
